I receive some bytes and then I want to cast to typedef struct with correspondent values. My typedef struct is:

typedef struct SomethingHeader {
   uint8_t PV;
   uint8_t messageID;
   uint32_t stID;
} ; 

I receive the array with values:

somePDU[0] = {char} 2 [0x2]
somePDU[1] = {char} 6 [0x6]
somePDU[2] = {char} 41 [0x29]
somePDU[3] = {char} -90 [0xa6]
somePDU[4] = {char} 28 [0x1c]
somePDU[5] = {char} -93 [0xa3]
somePDU[6] = {char} 55 [0x37]
somePDU[7] = {char} -50 [0xce]
somePDU[8] = {char} 0 [0x]

When I use reinterpret_cast<SomethingHeader*>(somePDU), on the watch debug mode I see:

PV = 2 [0x2]
messageID = 6 [0x6]
stID = -835214564 [0xce37a31c]

The reinterpret_cast jumps two bytes: somePDU[2] and somePDU[3], but I needed, because my expected value is 698797623 (0x29a6ce37)

It seems to me that the reinterpret_cast only works well every 4 bytes (or with structures that occupy 4 bytes in a row).

How can I force the reinterpret_cast not to skip those two bytes?

  • 2
    See Why isn't sizeof for a struct equal to the sum of sizeof of each member? Either you need to explicitly "unpack" or "deserialize" the array into the structure, or you need to use compiler-specific extensions to "pack" the structure. – Some programmer dude Mar 1 at 13:46
  • 2
    As a side-note, in C++, struct names are type names, so there is no need for the typedef as in C. – Ron Mar 1 at 13:48
  • 5
    You need to read up on padding and endianness. – molbdnilo Mar 1 at 13:49
  • 5
    Also might want to read up on the strict aliasing rule. – rustyx Mar 1 at 13:55
  • 1
    You shouldn't use reinterpret_cast in such cases anyway. Jason Turner just made a video about it a week ago I believe. Rather use std::memcpy: "When it is needed to interpret the bytes of an object as a value of a different type, std::memcpy or std::bit_cast (since C++20)can be used" - cppreference – Andreas Brunnet Mar 1 at 14:41
  1. You cannot use reinterpret_cast for this in C++. You will violate type aliasing rules and the behaviour of the program will be undefined.

  2. You cannot define the struct in such way that it won't have padding in standard C++. A structure like this is not a portable way to represent byte patterns in C++.

A working example:

std::size_t offs = 0;
SomethingHeader sh;
std::memcpy(&sh.PV,        somePDU + offs, sizeof sh.PV);
offs += sizeof sh.PV;
std::memcpy(&sh.messageID, somePDU + offs, sizeof sh.messageID);
offs += sizeof sh.messageID;
std::memcpy(&sh.stID,      somePDU + offs, sizeof sh.stID);
offs += sizeof sh.stID;

Note that this still assumes that the order of bytes of the integer are in native endianness which is not a portable assumption. You need to know the endianness of the source data, and convert it to native byte order. This can be done portably by shift and bitwise or.


My problem are padding and endianness that are in comments on my question.

My solution for padding is:

#pragma pack(push,1)
struct SomethingHeader {
   uint8_t PV;
   uint8_t messageID;
   uint32_t stID;
#pragma pack(pop)

For the endianness just use ntohl().

Thank you

  • Note: This is nonstandard and may make the app run slower, sometimes hundreds of times slower. – Mooing Duck Mar 2 at 0:53

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